We have compiled a list of manufacturers, distributors, product information, reference prices, and rankings for Finite element analysis software.
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Finite element analysis software Product List and Ranking from 11 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Oct 15, 2025~Nov 11, 2025
This ranking is based on the number of page views on our site.

Finite element analysis software Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Oct 15, 2025~Nov 11, 2025
This ranking is based on the number of page views on our site.

  1. null/null
  2. FsTech Kanagawa//software
  3. 計算力学研究センター【略称:RCCM】 東京本社 Tokyo//software
  4. 4 兼松エレクトロニクス デジタル・サービス本部 Tokyo//Trading company/Wholesale
  5. 5 フォトン Kyoto//software
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Finite element analysis software Product ranking

Last Updated: Aggregation Period:Oct 15, 2025~Nov 11, 2025
This ranking is based on the number of page views on our site.

  1. 3DEXPERIENCE SIMULIA <Solid Element Creation Function> 兼松エレクトロニクス デジタル・サービス本部
  2. [FEM Analysis Case] Stress Analysis of Bevel Gears
  3. [FEM Analysis Case] Rigidity Analysis of a Planetary Gear Reducer
  4. ■Coupled Analysis (Dynamic Magnetic Field + Heat Conduction) EDDYjω & THERMO フォトン
  5. 4 [Information] Simcenter FEMAP Functions in the Construction Field 計算力学研究センター【略称:RCCM】 東京本社

Finite element analysis software Product List

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3D Finite Element Method Analysis Software "AMaze Series"

3D Finite Element Method Analysis Software "AMaze Series"

Unique mesh generation technology! 3D finite element analysis software for personal computers.

The "AMaze Series" is a 3D finite element analysis software for personal computers that performs three-dimensional numerical simulations quickly and with high precision. To accurately reflect the shapes of each component being analyzed in the calculations, it uses hexahedral meshes that fit the material boundaries. Thanks to its unique mesh generation technology, it creates elements with suitable shapes while strictly maintaining a logical structure. As a result, the solver can perform calculations with extremely high precision, effectively utilizing computer resources to enable fast computations. 【Features】 ■ Performs three-dimensional numerical simulations quickly and with high precision ■ Unique mesh generation technology ■ Creates elements with suitable shapes while strictly maintaining a logical structure ■ Affordable pricing allows for implementation in university research labs, small research institutes, schools, and more *For more details, please refer to the PDF document or feel free to contact us.

  • Other analyses

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Case study: Hull strength analysis using the finite element method.

Case study: Hull strength analysis using the finite element method.

A full hull model close to the actual structure was created, and strength analysis of the model was conducted.

**Case Summary** ■Product Name: Simcenter Femap with Nastran ■Analysis: Linear Static Analysis ■Industry: Railways and Shipping Finite element method strength calculations are widely used in hull design. The hull structure, composed of many components such as decks, side plating, double bottoms, bulkheads, and longitudinal and transverse strength frames, is complex, making it difficult to analyze just a part of it. This example created a full model close to the actual structure and conducted a strength analysis of the entire hull model. - The mesh generation feature of Simcenter Femap allows for the creation of complex hull FEM models. - Creation and management of loads such as static/dynamic water pressure and cargo conditions. - Improved computational efficiency through continuous analysis of multiple load cases. - The parallel processing capability of Simcenter Nastran enables analysis of large-scale models. □ For other features and details, please refer to the catalog.

  • Other analyses

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■Coupled Analysis (Dynamic Magnetic Field + Heat Conduction) EDDYjω & THERMO

■Coupled Analysis (Dynamic Magnetic Field + Heat Conduction) EDDYjω & THERMO

This is a software for coupled analysis of magnetic fields/magnetic fields and heat conduction using the finite element method, performing static analysis and frequency response analysis.

This is a software for coupled analysis of magnetic fields/magnetic fields and heat conduction using the finite element method, capable of performing static analysis and frequency response analysis. It can handle three-dimensional, two-dimensional, and axisymmetric problems. ■□■Features■□■ ■Since it is integrated with the PHOTO series dedicated pre- and post-processing, data creation, analysis, and result processing can be performed as a series of operations. ■A revolutionary acceleration has been achieved through the combined use of edge element method and ICCG method (dozens of times faster than conventional finite element methods). ■Since it uses the finite element method, the solutions are stable, making it user-friendly even for beginners. ■The EDDYjω (magnetic field/magnetic field analysis module) and THERMO (heat conduction analysis module) are integrated, allowing for automatic transfer of heat generation density without the need for files. ■It is also possible to use EDDYjω and THERMO independently.

  • Magnetic field analysis/electromagnetic wave analysis
  • Analysis Services
  • Contract Analysis

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[Information] Simcenter FEMAP Functions in the Construction Field

[Information] Simcenter FEMAP Functions in the Construction Field

Used in various fields around the world! Introducing analysis functions in the construction sector!

This document introduces the analysis capabilities of 'Simcenter FEMAP' in the construction field, which consists of the pre- and post-processor (FEMAP) and the structural finite element method solver (Simcenter Nastran). Simcenter Nastran is used in various fields worldwide and is widely utilized in the construction sector as well. For example, it is used to evaluate stress distribution in composite structures made of steel and concrete, and to assess the stability of concrete dam embankments. [Contents] ■ About Simcenter FEMAP ■ Available analysis functions ■ Bulk placement of shell elements representing steel ■ Bulk placement of GAP elements (spring elements) ■ Sweep along element edges *For more details, please refer to the PDF document or feel free to contact us.

  • Contract Analysis
  • Structural Analysis
  • Other analyses

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[AdvantEdge FEM Analysis Case] Example of Using Parallel Computing Options

[AdvantEdge FEM Analysis Case] Example of Using Parallel Computing Options

Easy to execute due to SMP support! Adoption of parallel algorithms compatible with CPU architecture.

In "AdvantEdge FEM," the use of parallel computing options allows for a speedup in computation time. By accelerating computation time, it becomes possible to analyze large-scale models that were previously difficult to simulate in cutting simulations. We also present examples of analysis results used in other analysis software (LS-DYNA, Abaqus). [Case Overview] ■ Burr evaluation during intersecting hole machining ■ Hole machining on inclined surfaces ■ Analysis of deep hole machining ■ Chip evaluation analysis *For more details, please refer to the PDF materials or feel free to contact us.

  • simulator

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MeshmanParticleViewer_HPCver.3.3

MeshmanParticleViewer_HPCver.3.3

Intuitive operation is possible! A user interface designed with large-scale models in mind!

"Meshman_ParticleViewer_HPC ver.3.3" is software that displays lattice models generated from STL files for particle methods, finite difference methods, and voxel methods. It allows for smooth visualization of large-scale models for both particle methods and FEM. Additionally, it offers customizable data formats and intuitive operation. A new feature has been added to the software that lists recently used files. 【Features】 - Smooth visualization of large-scale models for both particle methods and FEM - Proven capability of handling 150 million particles - Proven capability of handling up to 120 million degrees of freedom for FEM - User interface designed with large-scale models in mind - Ability to display shading even for particles *For more details, please refer to the PDF documentation or feel free to contact us.

  • simulator
  • Structural Analysis
  • Other analyses

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FEMFAT Plast Extension Module: Considering Local Plasticity

FEMFAT Plast Extension Module: Considering Local Plasticity

Calculating elasto-plastic stress from linear elastic analysis results.

EMFAT plast calculates the elastic-plastic stress around the notch area based on the results of linear elastic analysis using the Neuber correction. The Neuber rule is a method that demonstrates the relationship between linear and nonlinear stress and strain, allowing the representation of the Neuber hyperbola using Young's modulus E and nonlinear strain εplast. To represent the hysteresis loop of the cyclic stress-strain diagram (using the cyclic hardening coefficient K' and cyclic hardening exponent n'), the Ramberg-Osgood rule is used to calculate the nonlinear stress as the intersection point with the Neuber hyperbola. This eliminates the need for FE analysis considering material nonlinearity for local plasticity, allowing the elastic-plastic stress to be corrected with FEMFAT plast. Additionally, FEMFAT plast enables a reduction in computational effort for FE analysis. FEMFAT plast is compatible with FEMFAT basic, FEMFAT max, and FEMFAT spectral. *For more details, please download the PDF or contact us.*

  • plast 1.png
  • plast 2.png
  • Structural Analysis

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[Case Study] Strength Analysis of Compressor 'AIFEM'

[Case Study] Strength Analysis of Compressor 'AIFEM'

Efficiently analyze the strength of compressors with high precision! Achieve efficient design verification through smooth operability!

We will introduce a case study on the strength analysis of a compressor using the general-purpose finite element analysis software AIFEM. A compressor is a device that converts mechanical energy into fluid energy, consisting of multiple moving blades (rotors) and stationary blades (stators). The moving blades rotate at high speeds, compressing the gas within the flow path and increasing its energy. During this process, the impact of centrifugal force is particularly significant, necessitating high strength in the moving blades; therefore, strength analysis that adequately considers centrifugal force loading is crucial. With AIFEM's efficient pre-post processing and high-precision solver, we achieve a faster analysis process in development design and shorten the design cycle. *For more details, please download the PDF or feel free to contact us.*

  • Structural Analysis
  • simulator
  • Stress Analysis

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[Example] Structural Strength Analysis of a Pump 'AIFEM'

[Example] Structural Strength Analysis of a Pump 'AIFEM'

One of the investigations into the impact of peak water pressure on structures! A case study analyzing the strength of the pump body.

We would like to introduce a case study of static analysis of a pump structure using the general-purpose finite element analysis software "AIFEM." The pump model being analyzed consists of two components: the main body and the cover, which are connected by a flange. By investigating the pressure distribution of the pump, it is possible to confirm the mechanical properties of the structure and quickly evaluate the design in question. 【Analysis Conditions】 ■ Material - Young's Modulus: 205000 [MPa] ■ Material - Poisson's Ratio: 0.28 ■ Load Condition: C surface 4.5 [MPa] ■ Component Joint: D surface, E surface ■ Constraint Conditions: A surface, B surface *For more details, please download the PDF or feel free to contact us.

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  • Other analysis software

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[Case Study] Eigenvalue Analysis of Engine Block 'AIFEM'

[Case Study] Eigenvalue Analysis of Engine Block 'AIFEM'

Accurately evaluate the natural frequency and mode shapes of the engine block! Obtain information that leads to performance improvement in the design phase!

We will introduce a case study on eigenvalue analysis of engine blocks using the general-purpose finite element analysis software AIFEM. The eigenvalue characteristics of the engine block are crucial factors that influence the overall operational stability and durability of the engine. In particular, they relate to the operational lifespan and reliability of key components such as the piston, cylinder liner, and crankshaft, and they also significantly impact the engine's NVH (Noise, Vibration, and Harshness) performance. The effects of external excitation are particularly pronounced in the lower four mode frequencies, where resonance can lead to amplified vibrations. Therefore, it is essential to identify the main mode shapes and frequencies through eigenvalue analysis and implement appropriate design measures. Applications of this analysis: ■ To avoid the risk of resonance and prevent damage due to excessive vibrations ■ To enhance comfort by optimizing NVH performance ■ To find the optimal balance between lightweight design and rigidity *For more details, please download the PDF or feel free to contact us.

  • エンジンブロックの固有値解析_メイン画像1.png
  • simulator
  • Structural Analysis
  • Stress Analysis

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